% File src/library/base/man/dcf.Rd
% Part of the R package, http://www.R-project.org
% Copyright 1995-2009 R Core Development Team
% Distributed under GPL 2 or later

\name{dcf}
\alias{read.dcf}
\alias{write.dcf}
\title{Read and Write Data in DCF Format}
\description{
  Reads or writes an \R object from/to a file in Debian Control File
  format. 
}
\usage{
read.dcf(file, fields = NULL, all = FALSE)

write.dcf(x, file = "", append = FALSE,
          indent = 0.1 * getOption("width"),
          width = 0.9 * getOption("width"))
}
\arguments{
  \item{file}{either a character string naming a file or a connection.
    \code{""} indicates output to the console.  For \code{read.dcf} this
    can name a compressed file (see \code{\link{gzfile}}).}
  \item{fields}{Fields to read from the DCF file.  Default is to read all
    fields.}
  \item{all}{a logical indicating whether in case of multiple
    occurrences of a field in a record, all these should be gathered.
    If \code{all} is false (default), only the last such occurrence is
    used.}
  \item{x}{the object to be written, typically a data frame.  If not, it
    is attempted to coerce \code{x} to a data frame.}
  \item{append}{logical.  If \code{TRUE}, the output is appended to the
    file.  If \code{FALSE}, any existing file of the name is destroyed.}
  \item{indent}{a positive integer specifying the indentation for
    continuation lines in output entries.}
  \item{width}{a positive integer giving the target column for wrapping
    lines in the output.}
}
\details{
  DCF is a simple format for storing databases in plain text files that
  can easily be directly read and written by humans.  DCF is used in
  various places to store \R system information, like descriptions and
  contents of packages.

  The DCF rules as implemented in \R are:
  \enumerate{
    \item A database consists of one or more records, each with one or
    more named fields.  Not every record must contain each field.
    Fields may appear more than once in a record.
    \item Regular lines start with a non-whitespace character.
    \item Regular lines are of form \code{tag:value}, i.e., have a name
    tag and a value for the field, separated by \code{:} (only the first
    \code{:} counts).  The value can be empty (=whitespace only).
    \item Lines starting with whitespace are continuation lines (to the
    preceding field) if at least one character in the line is
    non-whitespace.  Continuation lines where the only non-whitespace
    character is a \samp{.} are taken as blank lines (allowing for
    multi-paragraph field values).
    \item Records are separated by one or more empty (=whitespace only)
    lines.
  }

  By default, \code{read.dcf} returns a character matrix with one row
  per record and one column per field.  Leading and trailing whitespace
  of field values is ignored.  If a tag name is specified, but the
  corresponding value is empty, then an empty string is returned.  If
  the tag name of a field is never used in a record, then \code{NA} is
  returned.  If fields are repeated within a record, the last one
  encountered is returned.  Malformed lines lead to an error.  If
  \code{all} is true, a data frame is returned, again with one row per
  record and one column per field, and columns lists of character
  vectors for fields with multiple occurrences, and character vectors
  otherwise.
  
  Note that \code{read.dcf(all = FALSE)} reads the file byte-by-byte.
  This allows a \file{DESCRIPTION} file to be read and only its ASCII
  fields used, or its \samp{Encoding} field used to re-encode the
  remaining fields.

  \code{write.dcf} does not write \code{NA} fields.
}
\seealso{
  \code{\link{write.table}}.
}
\examples{\dontrun{
## Create a reduced version of the 'CONTENTS' file in package 'splines'
x <- read.dcf(file = system.file("CONTENTS", package = "splines"),
              fields = c("Entry", "Description"))
write.dcf(x)
}}
\keyword{print}
\keyword{file}
